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Consider this body of main:

while (std::rand());

Surprisingly, I couldn't find anything, whether it be in the spec, on Google, or on this website, about whether that is well-defined. As for the spec:

N3485 § 6.5/4 [stmt.iter] says this about the condition:

[ Note: The requirements on conditions in iteration statements are described in 6.4. — end note ]

However, looking through 6.4, I saw nothing that refers to this scenario. In theory, the loop could virtually go on forever, but in practice, I usually had a run time of 5ms, with one time in all test runs being 22ms.

Is it well-defined behaviour to base the loop termination condition on a changing (pseudo)random number? If it isn't, which kind of behaviour is it?

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closed as too localized by chris, 0x499602D2, SztupY, Chris Dickson, Graviton Jan 9 '13 at 3:00

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Why would this be a special case? How is this different to (for example) a loop conditioned on user input? (both are non-deterministic) – Oliver Charlesworth Jan 6 '13 at 13:21
@OliCharlesworth, Good point, that never occurred to me. However, where does the spec say that's valid? I reread 6.4, and maybe I'm missing something obvious, but didn't pick it up. – chris Jan 6 '13 at 13:23
But I'm not sure why the standard would need to address this specifically... – Oliver Charlesworth Jan 6 '13 at 13:26
@OliCharlesworth, You're right. It's becoming clear what you mean. I'm not sure how my mind got so contrived while writing this. – chris Jan 6 '13 at 13:28
Where does it say that while (1); is not well-defined, btw? (I looked at the standard but could not find remarks about loop termination). – Chris Jan 6 '13 at 13:38
up vote 7 down vote accepted

std::rand() will be called at each iteration, then the loop will go on or not depending on its return value.

There is no reason to have any undefined behavior here.

It's not different from doing something like this

while (my_vector.empty());

Why do you think this case would be special?

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That's another good point. I was getting hung up on the fact that it could be an infinite loop, or not, but both are simply just doing their well-defined jobs. – chris Jan 6 '13 at 13:31
@chris: It will never be an infinite loop. It is effectively guaranteed to terminate eventually (even if this takes several billion years), unlike while (true). – PreferenceBean Jan 6 '13 at 14:42
@LightnessRacesinOrbit It could be an infinite loop, both theoretically and practically. Theoretically there's an infinitesimally small probability given a perfect RNG, but that's not the same as zero. Practically, rand() is a pseudo RNG that generates a finite cycle of values, and that cycle may not contain 0. – bames53 Jan 7 '13 at 16:08
@bames53: "Effectively" so I count infintessimal as negligible. If rand() can never evaluate to 0 though, then that changes things rather. If that's the case then the loop invokes UB as it may never terminate and, in any compliant program, the compiler must be able to assume that a loop will terminate. But are you sure the cycle cannot contain 0? – PreferenceBean Jan 7 '13 at 16:28

The behavior of

while (std::rand());

is, surely, well defined. That means, it changes the state of the built-in pseudorandom number generator to some state where it returns 0.

However, because the compiler may assume this loop will eventually terminate (by [intro.multithread]/24), it may be the case you either won't perceive the delay, or that some visible effect from the program after it will take place before the delay (if you have a frightfully clever compiler).

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Whilst I'm sure we have covered the case of "is this legal", I'm not sure it's a very good idea to use this particular method to wait a random [1] amount of time.

I would think that using something along the lines of

int delay = constant + rand() * factor;

would be a much better choice. It reduces the CPU load, and it gives you a defined range - there is no guarantee that rand() will give you a zero within the first gazillion calls, so the delay may well vary quite dramatically.

[1] Assuming srand() is given a suitably varying number - I'm not sure "time()" is the best way to achieve that. It's fine if you re-initialize once a day, but if you have code that starts several times in the same second, they all get the same seed.

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Okay, but usleep does not exist in C++. :) – PreferenceBean Jan 6 '13 at 14:43
That is true. Most OS's will have something that sleeps for a relatively short period of time tho'... – Mats Petersson Jan 6 '13 at 14:44
Yep like usleep in POSIX, but I guess my point is that this is a C++ language question – PreferenceBean Jan 6 '13 at 14:45
So your suggestion is to simply burn away the CPU-time, because there isn't a sleep function [of any kind, as far as I know] in C++? My point was exactly that you shouldn't burn the CPU-time away, but use a suitable sleep function to delay things. – Mats Petersson Jan 6 '13 at 14:48
Nope - this is a valid practical suggestion. It's just that this is a question for rationalising about standard-defined semantics, due to the language-lawyer tag. – PreferenceBean Jan 6 '13 at 14:49

To add to the other answers, the reason for the clause in the standard allowing the compiler to assume that any loop will terminate is not to make infinite loops undefined, but to allow optimizations to take place even in situations where a compiler can't determine if a loop will terminate.

For instance, in this situation

while(rand()) f();

if the compiler could determine that neither rand nor f have any side effects, the compiler could eliminate the entire loop, even if it couldn't prove that rand will eventually return 0.

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I'm not sure why the standard would have to speak in terms of undefined behavior (WRT endless loops), rather that simply saying that a compiler is free to defer the execution of any piece of code until its first observable effect, and that the time required to execute a piece of code, even if infinite, is not considered to be an "observable effect". If a variable is set in a loop which may or may not exit and has no other side-effects, and if other code may or may not read the variable, the compiler would be free to defer execution of the code unless or until that variable is needed. – supercat Jan 12 '13 at 3:14
If it turns out that the variable in question is never needed, the effect would be that the execution of the endless loop might be deferred until everything else happened first. No problem. – supercat Jan 12 '13 at 3:18

In this case initialization of srand is always the same, so the behavior of the while is is the same at each execution. Try to put in time some random data and you can see the change in execution time.

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I hate to say it, but my mental state is still enough to say that the behaviour will differ every new second that the program is run. srand is called once with a seed that keeps going up, so it can only be the same throughout executions until a second passes. – chris Jan 6 '13 at 13:37
Indeed srand () will give different results on each execution of it. However from the same root sequence of random numbers will be the same. Loop will be run until srand () will generate 0. This means that during the execution of the while loop will be the same if root of the sequence random number generation is constant. – user1929959 Jan 6 '13 at 13:54

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